the weight reduces due to change in gravity but mass remains constant
you would be weight "less" as in 0 you wouldn't be able to get on to e.g scales sorry?
divde your weight by 0.6
In space your weight changes by 5%.
We see astronauts floating in space but not on earth.why?
Yes, the force of gravity is less in space, so your weight is less too.
you would be weight "less" as in 0 you wouldn't be able to get on to e.g scales sorry?
Yes. The mass of the object doesn't change, no matter where it is. What does change is the object's weight, because that depends on what other masses are nearby.
It will have the same mass no matter where the object is: free floating out in space or on a planet or on a powerful rocket rapidly accelerating.What will be different is weight, which is only observed while the object is experiencing forces: free floating out in space the object has no weight, but either sitting on a planet or accelerating on a powerful rocket the object does have weight.
divde your weight by 0.6
The feeling of weightlessness is similar to the feeling you have when floating in a swimming pool. Buoyancy is a pretty good simulation of weightlessness. Although there is NO friction in space so you would be either dead from explosive decompression or (if you were wearing a space-suit) you would bee throwing up in your helmet from rapid spinning.
Yes
Yes
In space your weight changes by 5%.
Sure. Have you seen the video of the astronauts floating around inside their satellites, international space station, space shuttle, Apollo capsule, etc. ?Weight depends on the gravitational field in which the mass is located. No gravity = no weight.
We see astronauts floating in space but not on earth.why?
Because weight is based on gravity, and gravity changes throughout space.
Yes, the force of gravity is less in space, so your weight is less too.